African Journal of
Plant Science

  • Abbreviation: Afr. J. Plant Sci.
  • Language: English
  • ISSN: 1996-0824
  • DOI: 10.5897/AJPS
  • Start Year: 2007
  • Published Articles: 808

Full Length Research Paper

Normalized difference vegetation index as screening trait to complement visual selections of durum wheat drought tolerant genotypes

Alemayehu Zemede Lemma
  • Alemayehu Zemede Lemma
  • Ethiopian Institute of Agricultural Research (EIAR), Addis Ababa, Ethiopia.
  • Google Scholar
Firew Mekbib Hailemariam
  • Firew Mekbib Hailemariam
  • Department of Plant Sciences, Faculty of Agriculture and Environmental Sciences, Haramaya University, P. O. Box 138, Dire-Dawa, Ethiopia.
  • Google Scholar
Kebebew Assefa Abebe
  • Kebebew Assefa Abebe
  • Ethiopian Institute of Agricultural Research (EIAR), Addis Ababa, Ethiopia.
  • Google Scholar
Zewdie Bishaw
  • Zewdie Bishaw
  • International Center for Agricultural Research in Dry Area (ICARDA), P. O. Box 5689, Addis Ababa, Ethiopia.
  • Google Scholar


  •  Received: 12 May 2021
  •  Accepted: 01 September 2021
  •  Published: 31 January 2022

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Central Statistical Agency (CSA) (2018). "Agricultural Sample Survey 2016/17, Area and Production for Major crops. Private Peasant Holdings," Vol. I, Statistical Bulletin No 584 (2017), Addis Ababa, Ethiopia.

 

Govaerts B, Verhulst N (2010). The Normalized Difference Vegetation Index (NDVI) Greenseeker (TM) Handheld Sensor: Toward the Integrated Evaluation of Crop Management. Part A - Concepts and Case Studies. Mexico, CIMMYT pp. 1-16.

 

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Nasir MA, Raj K, Longchamps L, Subash D (2020). Using NDVI to Differentiate Wheat Genotypes Productivity Under Dry land and Irrigated Conditions. Remote Sense 2(5):824.
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Nieves A, Dolors V, Jaume C, Casadesus J, Luis A, Roy C (2000). Spectral Vegetation Indices as Non-destructive Tools for Determining Durum Wheat Yield. Agronomy Journal agro-climatology 92(1):83-91.
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Quemada M, Pancorbo JL, Ayonso M, Gabriel JL, Lopez-Herreza J, Perez Martin E (2019). Vegetation indices from remote sensing imagery as proxies for yield and grain N in wheat. In: Precision Agriculture 19, John V. Staffford Published P 1030
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Salah E, Al-Suhaibani N, El-Azeem AS, Rehman UR, Schmidhalter URS (2015). Spectral reflectance indices as a rapid and nondestructive phenotyping tool for estimating different morpho-physiological traits of contrasting spring wheat germplasms under arid conditions. Turkish Journal of Agriculture and Forestry 39:1-11.
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Sangam LD, Irwin G, Ceccarelli S, Rodomiro O (2020). Advanced Analytics, Phenomics and Biotechnology Approaches to Enhance Genetic Gains in Plant Breeding: in Donald Sparks Advances in Agronomy, 1st edition.

 

Sanchez A, Michael A, Gore J, Heun T, Thorp KR, Elizabete Carmo-Silva A, Andrew NF, Michael E, White JW (2013). Development and evaluation of a field based high-throughput phenotyping platform. Functional Plant Biology 41(1): 68-79.
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Semeraro T, Mastroleo AG, Pomes A, Luvisi E, Gissi Aretano R (2019). Modeling fuzzy combination of remote sensing vegetation index for durum wheat crop analysis. Computers and Elecrtonics in Agriculture 156:684-692.
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Seyoum M, Getachew B, Suryabhagavan KV (2016). Evaluation of Vegetation Indices for Agricultural Drought Monitoring in East Amhara, Ethiopia. International Journal of Scientific Research 5(1):535-540.

 

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Sheedy JG, Thompson JP (2009). Resistance to the root-lesion nematode pratylenchusthornei of Iranian landrace wheat. Australian plant pathology 38(5):478-489.
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Son NT, Chen CF, Minh VQ, Trung NH (2014). A comparative analysis of multi-temporal MODIS EVI and NDVI data for large-scale rice yield estimation. Agricultural and Forest Metrology 197:52-64.
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Spitko T, Nagy Z, Subori TZ, Szoke TC, Berzy T, Pinter J, Marton CL (2016). Connection between normalized difference vegetation index and yield in maize. Plant Soil Environment 62(7):293-298.
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Sruthi S, Mohammed MA (2015).Agricultural Drought Analysis Using the NDVI and Land Surface Temperature Data; a Case Study of Raichur District. Available online at www. Sciencedirect.com. Aquatic Procedia 4:1258-1264.
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Syeda R, Amjed SA, Ashfaq A, Muhammad M, Zia-Ul-Haq M, Shakeel A, Ercisli S, Jaafar ZE (2014). Normalized Differences Vegetation Index as a Tool for Wheat Yield Estimation: A Case Study from Faisalabad, Pakistan. Scienti?c World Journal 8 p.
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Tardieu F (2012). Any trait or trait-related allele can confer drought tolerance: just design the right drought scenario. Journal of Experimental Botany 63(1):25-31.
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William RR, John BS, Gordon VJ, Marvin LS, Erna VL, Wade E (2001). In: Thomason, and James S. Schepers In-Season Prediction of Potential Grain Yield in Winter Wheat Using Canopy Reflectance. Agronomy Journal 93:131-138.
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